279 lines
9.6 KiB
Go
279 lines
9.6 KiB
Go
package lnwallet
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import (
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"bytes"
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"fmt"
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"github.com/btcsuite/btcd/btcec"
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"github.com/btcsuite/btcd/txscript"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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)
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var (
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// TODO(roasbeef): remove these and use the one's defined in txscript
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// within testnet-L.
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SequenceLockTimeSeconds = uint32(1 << 22)
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SequenceLockTimeMask = uint32(0x0000ffff)
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OP_CHECKSEQUENCEVERIFY byte = txscript.OP_NOP3
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)
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// scriptHashPkScript generates a pay-to-script-hash public key script paying
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// to the hash160 of the passed redeem script.
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func scriptHashPkScript(redeemScript []byte) ([]byte, error) {
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bldr := txscript.NewScriptBuilder()
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bldr.AddOp(txscript.OP_HASH160)
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bldr.AddData(btcutil.Hash160(redeemScript))
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bldr.AddOp(txscript.OP_EQUAL)
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return bldr.Script()
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}
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// getFundingPkScript generates the non-p2sh'd multisig script for 2 of 2
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// pubkeys.
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func genFundingPkScript(aPub, bPub []byte) ([]byte, error) {
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if len(aPub) != 33 || len(bPub) != 33 {
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return nil, fmt.Errorf("Pubkey size error. Compressed pubkeys only")
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}
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// Swap to sort pubkeys if needed. Keys are sorted in lexicographical
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// order. The signatures within the scriptSig must also adhere to the
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// order, ensuring that the signatures for each public key appears
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// in the proper order on the stack.
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if bytes.Compare(aPub, bPub) == -1 {
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aPub, bPub = bPub, aPub
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}
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bldr := txscript.NewScriptBuilder()
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bldr.AddOp(txscript.OP_2)
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bldr.AddData(aPub) // Add both pubkeys (sorted).
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bldr.AddData(bPub)
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bldr.AddOp(txscript.OP_2)
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bldr.AddOp(txscript.OP_CHECKMULTISIG)
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return bldr.Script()
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}
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// fundMultiSigOut create the redeemScript for the funding transaction, and
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// also a TxOut paying to the p2sh of the multi-sig redeemScript. Give it the
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// two pubkeys and it'll give you the p2sh'd txout. You don't have to remember
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// the p2sh preimage, as long as you remember the pubkeys involved.
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func fundMultiSigOut(aPub, bPub []byte, amt int64) ([]byte, *wire.TxOut, error) {
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if amt < 0 {
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return nil, nil, fmt.Errorf("can't create FundTx script with " +
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"negative coins")
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}
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// p2shify
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redeemScript, err := genFundingPkScript(aPub, bPub)
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if err != nil {
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return nil, nil, err
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}
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pkScript, err := scriptHashPkScript(redeemScript)
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if err != nil {
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return nil, nil, err
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}
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return redeemScript, wire.NewTxOut(amt, pkScript), nil
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}
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// spendMultiSig generates the scriptSig required to redeem the 2-of-2 p2sh
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// multi-sig output.
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func spendMultiSig(redeemScript, pubA, sigA, pubB, sigB []byte) ([]byte, error) {
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bldr := txscript.NewScriptBuilder()
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// add a 0 for some multisig fun
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bldr.AddOp(txscript.OP_0)
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// When initially generating the redeemScript, we sorted the serialized
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// public keys in descending order. So we do a quick comparison in order
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// ensure the signatures appear on the Script Virual Machine stack in
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// the correct order.
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if bytes.Compare(pubA, pubB) == -1 {
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bldr.AddData(sigB)
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bldr.AddData(sigA)
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} else {
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bldr.AddData(sigA)
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bldr.AddData(sigB)
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}
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// preimage goes on AT THE ENDDDD
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bldr.AddData(redeemScript)
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// that's all, get bytes
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return bldr.Script()
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}
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// findScriptOutputIndex finds the index of the public key script output
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// matching 'script'. Additionally, a boolean is returned indicating if
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// a matching output was found at all.
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// NOTE: The search stops after the first matching script is found.
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func findScriptOutputIndex(tx *wire.MsgTx, script []byte) (bool, uint32) {
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found := false
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index := uint32(0)
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for i, txOut := range tx.TxOut {
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if bytes.Equal(txOut.PkScript, script) {
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found = true
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index = uint32(i)
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break
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}
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}
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return found, index
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}
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// senderHTLCScript constructs the public key script for an outgoing HTLC
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// output payment for the sender's commitment transaction.
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func senderHTLCScript(absoluteTimeout, relativeTimeout uint32, senderKey,
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receiverKey *btcec.PublicKey, revokeHash, paymentHash []byte) ([]byte, error) {
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builder := txscript.NewScriptBuilder()
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// Was the pre-image to the payment hash presented?
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builder.AddOp(txscript.OP_HASH160)
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builder.AddOp(txscript.OP_DUP)
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builder.AddData(paymentHash)
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builder.AddOp(txscript.OP_EQUAL)
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// How about the pre-image for our commitment revocation hash?
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builder.AddOp(txscript.OP_SWAP)
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builder.AddData(revokeHash)
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builder.AddOp(txscript.OP_EQUAL)
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builder.AddOp(txscript.OP_SWAP)
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builder.AddOp(txscript.OP_ADD)
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// If either is present, then the receiver can claim immediately.
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builder.AddOp(txscript.OP_IF)
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builder.AddData(receiverKey.SerializeCompressed())
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// Otherwise, we (the sender) need to wait for an absolute HTLC
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// timeout, then afterwards a relative timeout before we claim re-claim
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// the unsettled funds. This delay gives the other party a chance to
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// present the pre-image to the revocation hash in the event that the
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// sender (at this time) broadcasts this commitment transaction after
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// it has been revoked.
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builder.AddOp(txscript.OP_ELSE)
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builder.AddInt64(int64(absoluteTimeout))
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builder.AddOp(txscript.OP_CHECKLOCKTIMEVERIFY)
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builder.AddInt64(int64(relativeTimeout))
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builder.AddOp(OP_CHECKSEQUENCEVERIFY)
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builder.AddOp(txscript.OP_2DROP)
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builder.AddData(senderKey.SerializeCompressed())
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builder.AddOp(txscript.OP_ENDIF)
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builder.AddOp(txscript.OP_CHECKSIG)
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return builder.Script()
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}
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// senderHTLCScript constructs the public key script for an incoming HTLC
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// output payment for the receiver's commitment transaction.
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func receiverHTLCScript(absoluteTimeout, relativeTimeout uint32, senderKey,
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receiverKey *btcec.PublicKey, revokeHash, paymentHash []byte) ([]byte, error) {
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builder := txscript.NewScriptBuilder()
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// Was the pre-image to the payment hash presented?
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builder.AddOp(txscript.OP_HASH160)
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builder.AddOp(txscript.OP_DUP)
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builder.AddData(paymentHash)
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builder.AddOp(txscript.OP_EQUAL)
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builder.AddOp(txscript.OP_IF)
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// If so, let the receiver redeem after a relative timeout. This added
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// delay gives the sender (at this time) an opportunity to re-claim the
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// pending HTLC in the event that the receiver (at this time) broadcasts
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// this old commitment transaction after it has been revoked.
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builder.AddInt64(int64(relativeTimeout))
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builder.AddOp(OP_CHECKSEQUENCEVERIFY)
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builder.AddOp(txscript.OP_2DROP)
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builder.AddData(receiverKey.SerializeCompressed())
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// Otherwise, if the sender has the revocation pre-image to the
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// receiver's commitment transactions, then let them claim the
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// funds immediately.
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builder.AddOp(txscript.OP_ELSE)
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builder.AddData(revokeHash)
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builder.AddOp(txscript.OP_EQUAL)
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// If not, then the sender needs to wait for the HTLC timeout. This
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// clause may be executed if the receiver fails to present the r-value
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// in time. This prevents the pending funds from being locked up
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// indefinately.
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builder.AddOp(txscript.OP_NOTIF)
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builder.AddInt64(int64(absoluteTimeout))
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builder.AddOp(txscript.OP_CHECKLOCKTIMEVERIFY)
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builder.AddOp(txscript.OP_DROP)
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builder.AddOp(txscript.OP_ENDIF)
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builder.AddData(senderKey.SerializeCompressed())
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builder.AddOp(txscript.OP_ENDIF)
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builder.AddOp(txscript.OP_CHECKSIG)
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return builder.Script()
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}
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// lockTimeToSequence converts the passed relative locktime to a sequence
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// number in accordance to BIP-68.
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// See: https://github.com/bitcoin/bips/blob/master/bip-0068.mediawiki
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// * (Compatibility)
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func lockTimeToSequence(isSeconds bool, locktime uint32) uint32 {
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if !isSeconds {
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// The locktime is to be expressed in confirmations. Apply the
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// mask to restrict the number of confirmations to 65,535 or
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// 1.25 years.
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return SequenceLockTimeMask & locktime
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}
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// Set the 22nd bit which indicates the lock time is in seconds, then
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// shift the locktime over by 9 since the time granularity is in
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// 512-second intervals (2^9). This results in a max lock-time of
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// 33,554,431 seconds, or 1.06 years.
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return SequenceLockTimeSeconds | (locktime >> 9)
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}
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// commitScriptToSelf constructs the public key script for the output on the
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// commitment transaction paying to the "owner" of said commitment transaction.
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// If the other party learns of the pre-image to the revocation hash, then they
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// can claim all the settled funds in the channel, plus the unsettled funds.
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func commitScriptToSelf(csvTimeout uint32, selfKey, theirKey *btcec.PublicKey, revokeHash []byte) ([]byte, error) {
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// This script is spendable under two conditions: either the 'csvTimeout'
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// has passed and we can redeem our funds, or they have the pre-image
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// to 'revokeHash'.
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builder := txscript.NewScriptBuilder()
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// If the pre-image for the revocation hash is presented, then allow a
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// spend provided the proper signature.
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builder.AddOp(txscript.OP_HASH160)
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builder.AddData(revokeHash)
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builder.AddOp(txscript.OP_EQUAL)
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builder.AddOp(txscript.OP_IF)
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builder.AddData(theirKey.SerializeCompressed())
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builder.AddOp(txscript.OP_ELSE)
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// Otherwise, we can re-claim our funds after a CSV delay of
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// 'csvTimeout' timeout blocks, and a valid signature.
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builder.AddInt64(int64(csvTimeout))
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builder.AddOp(OP_CHECKSEQUENCEVERIFY)
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builder.AddOp(txscript.OP_DROP)
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builder.AddData(selfKey.SerializeCompressed())
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builder.AddOp(txscript.OP_ENDIF)
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builder.AddOp(txscript.OP_CHECKSIG)
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return builder.Script()
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}
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// commitScriptUnencumbered constructs the public key script on the commitment
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// transaction paying to the "other" party. This output is spendable
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// immediately, requiring no contestation period.
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func commitScriptUnencumbered(key *btcec.PublicKey) ([]byte, error) {
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// This script goes to the "other" party, and it spendable immediately.
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builder := txscript.NewScriptBuilder()
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builder.AddOp(txscript.OP_DUP)
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builder.AddOp(txscript.OP_HASH160)
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builder.AddData(btcutil.Hash160(key.SerializeCompressed()))
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builder.AddOp(txscript.OP_EQUALVERIFY)
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builder.AddOp(txscript.OP_CHECKSIG)
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return builder.Script()
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}
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